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annotate ChipSeqRatioDef.xml @ 23:36c418bca8b2 draft
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author | petr-novak |
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date | Wed, 02 Aug 2023 11:50:25 +0000 |
parents | 58807b35777a |
children | 53dc6aef5441 |
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1 <tool id="chip_seq_ratio_1" name="ChIP-Seq Mapper" version="1.1.1.3"> |
3 | 2 <stdio> |
3 <exit_code range="1:" level="fatal" description="Error"/> | |
4 </stdio> | |
5 <description></description> | |
6 <requirements> | |
7 <requirement type="package">r-base64enc</requirement> | |
8 <requirement type="package">r-r2html</requirement> | |
9 <requirement type="package">blast</requirement> | |
6 | 10 <!-- <requirement type="package">chip_seq_ration</requirement> --> |
3 | 11 </requirements> |
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12 <required_files> |
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13 <include type="literal" path="ChipSeqRatioAnalysis.py"/> |
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14 <include type="literal" path="ChipSeqRatioAnalysis.R"/> |
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15 </required_files> |
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16 <command> |
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17 python '$__tool_directory__'/ChipSeqRatioAnalysis.py |
3 | 18 --ChipSeq=${ChipFile} |
19 --InputSeq=${InputFile} | |
20 --Contigs=${ContigFile} | |
21 --output=${OutputFile} | |
22 --html=${ReportFile} | |
23 --max_cl=${MaxCl} | |
24 --bitscore=$bitscore | |
25 --nproc=16 | |
26 </command> | |
27 | |
28 <inputs> | |
9 | 29 <param name="ChipFile" label="Chip reads" type="data" format="fasta" help="Reads in FASTA format"/> |
30 <param name="InputFile" label="Input reads" type="data" format="fasta" help="Reads in FASTA format"/> | |
31 <param name="ContigFile" label="Reference - contig sequences" type="data" format="fasta" | |
32 help="Contigs from RepeatExplorer clustering (the file "contigs.fasta")"/> | |
33 <param name="MaxCl" label="Number of top clusters to be shown in graph" type="integer" value="200"/> | |
34 <param name="bitscore" label="Bit score threshold" type="integer" value="50" help="Similarity hits with lower bit score will not be used for ChIP/Input ratio calculation"/> | |
3 | 35 </inputs> |
36 <outputs> | |
7 | 37 <data name="OutputFile" format="tabular" |
38 label="csv table from ChIP-Seq-Mapper on datasets ${InputFile.hid} (Input) ${ChipFile.hid} (ChIP) and ${ContigFile.hid} (reference)"/> | |
39 | |
40 <data name="ReportFile" format="html" | |
41 label="HTML report from ChIP-Seq-Mapper on datasets ${InputFile.hid} (Input) ${ChipFile.hid} (ChIP) and ${ContigFile.hid} (reference)"/> | |
3 | 42 </outputs> |
43 | |
44 <help> | |
45 **What it does** | |
46 | |
9 | 47 The ChIP-seq Mapper evaluates the enrichment of repetitive sequences in sequencing data from chromatin |
48 immunoprecipitation experiments, using repeats identified by RepeatExplorer as the reference. The tool | |
49 performs BLASTN similarity search of the read sequences to the reference, | |
50 and the reads producing hits that passed the user-specified similarity threshold are assigned to the | |
51 repeat clusters. The assignment is made to the cluster that produced the best similarity hit, and every | |
52 read is assigned to only a single cluster. Following read mapping, the numbers of reads from the | |
53 INPUT and ChIP samples are evaluated, and ChIP/INPUT ratios of the normalized read counts are reported | |
54 for individual clusters. | |
55 ChIP and INPUT reads should be of uniform lengths of at least 40 nt. The bit score threshold value should be | |
56 adjusted based on the length of the analyzed reads (the value equal to the read length is recommended for a start). | |
3 | 57 This method was first used in (`Neumann et al. 2012`__) for |
9 | 58 identification of repetitive sequences associated with centromeres: |
3 | 59 |
60 | |
61 `PLoS Genet. Epub 2012 Jun 21. Stretching the rules: monocentric chromosomes with multiple centromere domains. Neumann P, Navrátilová A, Schroeder-Reiter E, Koblížková A, Steinbauerová V, Chocholová E, Novák P, Wanner G, Macas J.`__. | |
62 | |
63 .. __: http://journals.plos.org/plosgenetics/article?id=10.1371/journal.pgen.1002777 | |
64 .. __: http://journals.plos.org/plosgenetics/article?id=10.1371/journal.pgen.1002777 | |
65 | |
66 </help> | |
67 | |
68 </tool> | |
69 | |
70 |